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Rapidly-customizable, scalable 3D-printed wireless optogenetic probes for versatile applications in neuroscience.

Authors :
Lee J
Parker KE
Kawakami C
Kim JR
Qazi R
Yea J
Zhang S
Kim CY
Bilbily J
Xiao J
Jang KI
McCall JG
Jeong JW
Source :
Advanced functional materials [Adv Funct Mater] 2020 Nov 11; Vol. 30 (46). Date of Electronic Publication: 2020 Sep 18.
Publication Year :
2020

Abstract

Optogenetics is an advanced neuroscience technique that enables the dissection of neural circuitry with high spatiotemporal precision. Recent advances in materials and microfabrication techniques have enabled minimally invasive and biocompatible optical neural probes, thereby facilitating in vivo optogenetic research. However, conventional fabrication techniques rely on cleanroom facilities, which are not easily accessible and are expensive to use, making the overall manufacturing process inconvenient and costly. Moreover, the inherent time-consuming nature of current fabrication procedures impede the rapid customization of neural probes in between in vivo studies. Here, we introduce a new technique stemming from 3D printing technology for the low-cost, mass production of rapidly customizable optogenetic neural probes. We detail the 3D printing production process, on-the-fly design versatility, and biocompatibility of 3D printed optogenetic probes as well as their functional capabilities for wireless in vivo optogenetics. Successful in vivo studies with 3D printed devices highlight the reliability of this easily accessible and flexible manufacturing approach that, with advances in printing technology, can foreshadow its widespread applications in low-cost bioelectronics in the future.

Details

Language :
English
ISSN :
1616-301X
Volume :
30
Issue :
46
Database :
MEDLINE
Journal :
Advanced functional materials
Publication Type :
Academic Journal
Accession number :
33708031
Full Text :
https://doi.org/10.1002/adfm.202004285